Se2 have become a less-expensive photovoltaic technology than crystalline Si wafer solar cells. Still, their efficiencies are ...

Researchers have found a way to dramatically reducing energy loss and boosting efficiency perovskite solar cells by incorporating rubidium using lattice strain -- a slight deformation in the atomic ...

A major breakthrough in the field of solar energy has just been achieved with the creation of a low-cost and flexible solar cell capable of lasting nearly ten times longer than its predecessors.

In a study that unlocks exciting possibilities for solar cells and light-emitting ... made from perovskite materials with the ...

in Japan have fabricated a perovskite solar cell with an electron transport layer (ETL) based on high-quality large-area tin oxide (SnO 2) films by using a chemical bath deposition (CBD ...

There has been great hope for perovskite solar cells because they have the potential to produce low cost solar energy in a wide variety of applications, where conventional cells will not work.

and supramolecular chemistry—such as displays, flexible solar cells and transistors. APCs are small, perfectly shaped molecular rings made up of repeating units linked in an endless loop.

A solar cell is made of two types of semiconductors, called p-type and n-type silicon. The p-type silicon is produced by adding atoms—such as boron or gallium—that have one less electron in their ...

Scientists made solar cell panels from Moon dust to power future lunar cities more easily, safely, and cheaply.

Perovskite cells are much cheaper and more flexible than their silicon alternatives, but they have major durability problems. A new breakthrough could be about to change that.

From hydrogen fuel to solar cells to battery recycling, the race is on to develop green energy technologies that can accelerate the decarbonization of society as time runs out to avert the worst ...